CN114101560A - Titanium alloy hot forging rapid production equipment - Google Patents

Abstract

The invention provides a titanium alloy hot forging rapid production device, which comprises a supporting device; the supporting device is fixedly connected to the four mounting feet; the rotating shaft of the supporting device is connected with a turning part; the supporting device is rotatably connected with a driving part; the top of the supporting device is connected with a feeding part in a sliding manner, and the feeding part is fixedly connected with a quenching device; two lifting devices are arranged and are respectively and fixedly connected to the top of the supporting device; fixedly connected with forging device between two elevating gear has set up strutting arrangement, has adopted to set up the quenching groove on strutting arrangement, and the mode that the integration was seamless to be seted up is more stable, and is more heat-resisting simultaneously, and life is longer, and the upset portion of rotatory coupling has adopted the mode that the upset brace table supported simultaneously on supporting platform, realizes rotatory switching, forges more in a flexible way.

Description

Titanium alloy hot forging rapid production equipment

Technical Field

The invention belongs to the technical field of titanium alloy hot forging, and particularly relates to titanium alloy hot forging rapid production equipment.

Background

Titanium alloy refers to a plurality of alloy metals made of titanium and other metals, the forging process carried out above the metal recrystallization temperature is called hot forging, the hot forging is also called hot die forging, the deformed metal flows violently during forging, the contact time between a forging piece and a die is longer, and the good titanium alloy hot forging rapid production equipment is particularly important due to the excellent performance of the titanium alloy hot forging.

For example, application No.: CN202011514250.9, relates to an intelligent automatic titanium alloy hot forging production system, in particular to the technical field of titanium alloy production equipment, and comprises a workbench, wherein the top of the workbench is fixedly provided with a step feeding mechanism, a digital front end length fixing mechanism, a digital lifting mechanism, a digital material pushing mechanism, a digital heating mechanism and a digital rear end flexible length fixing mechanism through bolts, and the digital front end length fixing mechanism is positioned between the step feeding mechanism and the digital heating mechanism; the digital material pushing device can push the titanium alloy into the heating pipe in the digital heating mechanism, the titanium alloy can locally enter the heating pipe due to the blocking of the digital rear-end flexible length-fixing mechanism, the heating pipe can locally heat the titanium alloy at the moment, the consumption of thermal resources when the titanium alloy is integrally heated is reduced, the efficiency of the production system for hot forging the titanium alloy can be effectively improved due to local hot forging, and the practicability of the production system is improved.

Based on the prior art discovery, current titanium alloy hot forging rapid production equipment does not set up the upset hot forging device, can't forge fast behind the titanium alloy heating and handle, influence forging quality when influencing work efficiency, the material loading guenching unit of integration is not set up, consume the manpower, quench simultaneously and easily lead to the unable better austenitization of titanium alloy untimely, it is not good to lead to titanium alloy physical properties, the condition that the quenching liquid is heated to spatter very easily takes place among the quenching operation process simultaneously, there is the potential safety hazard, do not set up forging adjusting device, can't adapt to not unidimensional forging piece, it is not nimble enough and practical.

Disclosure of Invention

In order to solve the technical problems, the invention provides titanium alloy hot forging rapid production equipment, which aims to solve the problems that the existing titanium alloy hot forging rapid production equipment is not provided with an overturning hot forging device, cannot perform forging treatment rapidly after heating titanium alloy, affects the working efficiency and forging quality, is not provided with an integrated feeding quenching device, consumes manpower, is not quenched timely and easily causes that the titanium alloy cannot be austenitized better, so that the physical performance of the titanium alloy is poor, and meanwhile, the situation that quenching liquid is heated and splashed easily occurs in the quenching operation process, so that the potential safety hazard exists, and a forging adjusting device is not arranged, so that the equipment cannot adapt to forging blocks with different sizes, and is not flexible and practical.

The invention relates to a purpose and an effect of titanium alloy hot forging rapid production equipment, which are achieved by the following specific technical means:

a titanium alloy hot forging rapid production device comprises a supporting device;

the supporting device is fixedly connected to the four mounting feet; the rotating shaft of the supporting device is connected with a turning part; the supporting device is rotatably connected with a driving part; the top of the supporting device is connected with a feeding part in a sliding manner, and the feeding part is fixedly connected with a quenching device;

two lifting devices are arranged and are respectively and fixedly connected to the top of the supporting device; a forging device is fixedly connected between the two lifting devices.

Further, the supporting device includes:

the supporting platform is fixedly connected to the four mounting feet;

the quenching tank is arranged on the supporting platform.

Further, the material loading portion still includes:

two reverse gears are arranged; the two reverse gears are both rotatably connected to the supporting platform; the two reverse gears are meshed and connected between the dragging bracket and the feeding bracket;

the two correction plates are respectively fixedly connected to the dragging support and the feeding support.

Further, the lifting device includes:

the lifting support is fixedly connected to the supporting platform;

the hydraulic cylinder is fixedly connected to the supporting platform;

the lifting block is connected to the lifting support in a sliding mode, and the bottom of the lifting block is fixedly connected to the hydraulic cylinder.

Further, the driving part includes:

the driving threaded rod is rotatably connected to the supporting platform;

and the transmission gear is meshed with the driving threaded rod and is fixedly connected to the side shaft end of the overturning supporting platform.

Further, the quenching apparatus includes:

the quenching bracket is fixedly connected to the dragging bracket;

the alloy taking rod is rotatably connected to the quenching bracket; a material taking hook is arranged on the front side of the alloy material taking rod;

two reset shafts are arranged and are respectively and fixedly connected to the quenching bracket; two reset shafts are respectively sleeved on two sides of the quenching bracket, and springs are sleeved on the two reset shafts.

Further, the forging apparatus includes:

the forging power hammer is fixedly connected to the two lifting blocks through a bracket;

and the flange hammer head is fixedly connected to the bottom of the forging power hammer through a flange.

Further, the turning part includes:

the overturning support platform is connected to the support platform in a rotating mode; the two sides of the overturning support platform are of arc structures, and the two sides of the overturning support platform are attached to the support platform;

two reverse screw rods are arranged and are respectively and fixedly connected to the supporting platform; reverse threads are arranged on the two reverse screw rods;

and forging the supporting block, wherein the supporting block is rotatably connected to the two reverse screw rods in a threaded manner.

Further, the material loading portion includes:

the feeding support is connected to the supporting platform in a sliding mode through a sliding block; and racks are arranged on two sides of the feeding bracket;

the dragging bracket is connected to the supporting platform in a sliding manner through a sliding block; and racks are arranged on two sides of the dragging bracket.

Further, the turning part further comprises:

the heating platform is in threaded rotary connection with the two reverse screw rods;

the heating pipe, the heating pipe is equipped with the round, and the round heating pipe inlays the dress and is equipped with upset brace table.

Compared with the prior art, the invention has the following beneficial effects:

1. in the device, a supporting device is arranged, a quenching tank is arranged on the supporting device, the device is more stable, more heat-resistant and longer in service life due to the fact that the supporting device is integrally and seamlessly arranged, meanwhile, a turnover part of a rotary shaft joint on a supporting platform is supported by a turnover supporting platform, rotation is realized, forging is more flexible, a driving part is arranged in a matching mode, a transmission gear is driven to rotate under the rotation driving of a driving threaded rod, the turnover supporting platform is driven to rotate, the driving threaded rod is provided with a limiting effect, the turnover supporting platform can be rotated more stably, a heating platform can be cooled for a certain time due to the fact that a forging supporting block and the heating platform are independently installed, the heating platform is prevented from being hammered after being heated, the service life is influenced due to the fact that the heating platform is provided with an independent heating platform, and the heating pipe can be protected better, can realize driving simultaneously and forge supporting shoe and heating platform operation through setting up reverse lead screw, the operation is more convenient, and the upset portion that sets up simultaneously can be more quick realization forge the titanium alloy piece after the thermal treatment, improves and forges the effect, production efficiency with higher speed simultaneously.

2. In this device, the material loading portion has been set up, material loading portion has adopted the material loading support can realize advancing the removal with the titanium alloy piece, the correction board through setting up can prevent the titanium alloy piece aversion in the removal process, the cooperation is dragging the support, in the material loading support advances the in-process forward, under two reverse gear meshing transmissions, realize driving and drag support simultaneous opposite direction and remove, ensure that the titanium alloy piece can the centering and inerrably get into upset portion, through setting up material loading portion, when the staff's material loading of can being convenient for more of cooperation guenching unit, prevent to take place the scald because of upset portion high temperature in the material loading process, adopt guenching unit simultaneously, it drives the mode that the titanium alloy piece removed to realize the extrusion through alloy material taking pole, can improve quenching efficiency greatly, quick quenching helps the inside austenitization of strip alloy, improve the metal property.

3. In this device, elevating gear has been set up, the quick adjustment forging device height of being convenient for more of hydraulic cylinder driven elevator piece of adoption to obtain more nimble forging height, set up simultaneously can height-adjusting's elevating gear can realize avoiding influencing the upset portion and carry out the upset operation, set up elevating gear and can effectively enlarge the holistic forging scope of equipment, the forging device that sets up simultaneously adopts flange joint's flange tup to be convenient for more change, and is more practical.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic bottom structure of the present invention.

Fig. 3 is a sectional view of the internal structure of the present invention.

Fig. 4 is a schematic view of the internal structure of the present invention.

Fig. 5 is a schematic structural view of the supporting device of the present invention.

Fig. 6 is a schematic view of the turning part structure of the present invention.

Fig. 7 is a schematic view of the bottom structure of the turning part of the present invention.

Fig. 8 is a schematic view of the turning part mounting structure of the present invention.

Fig. 9 is a schematic view of the driving portion structure of the present invention.

Fig. 10 is a schematic view of the structure of the loading part of the present invention.

Fig. 11 is a schematic view of the structure of the loading part of the present invention.

FIG. 12 is a schematic view of the quenching apparatus of the present invention.

Fig. 13 is a schematic structural view of the lifting device of the present invention.

FIG. 14 is a schematic view of the forging apparatus of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a support device;

101. a support platform; 102. a quenching tank;

2. a turning part;

201. overturning the support platform; 202. a reverse screw rod; 203. forging a supporting block; 204. a heating platform; 205. heating a tube;

3. a drive section;

301. driving the threaded rod; 302. a transmission gear;

4. a feeding part;

401. a feeding support; 402. dragging the bracket; 403. a reverse gear; 404. a correction plate;

5. a quenching device;

501. quenching the bracket; 502. an alloy taking rod; 503. a reset shaft;

6. a lifting device;

601. a lifting support; 602. a hydraulic cylinder; 603. a lifting block;

7. a forging device;

701. forging a power hammer; 702. a flange hammer head;

8. and (6) mounting ground feet.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 14:

the invention provides a titanium alloy hot forging rapid production device, which comprises a supporting device 1; the supporting device 1 is fixedly connected to the four mounting feet 8; the support device 1 is rotationally connected with a turnover part 2; the supporting device 1 is rotatably connected with a driving part 3; the top of the supporting device 1 is connected with a feeding part 4 in a sliding way, and the feeding part 4 is fixedly connected with a quenching device 5; two lifting devices 6 are arranged, and the two lifting devices 6 are respectively and fixedly connected to the top of the supporting device 1; a forging device 7 is fixedly connected between the two lifting devices 6.

As shown in fig. 5 to 9, the supporting device 1 includes: the supporting platform 101 is fixedly connected to the four mounting feet 8; the quenching tank 102, the quenching tank 102 is arranged on the supporting platform 101; the turning part 2 includes: the overturning support platform 201, the overturning support platform 201 is rotatably connected to the support platform 101; two sides of the overturning support platform 201 are arc-shaped structures, and two sides of the overturning support platform 201 are attached to the support platform 101; two reverse screw rods 202 are arranged, and the two reverse screw rods 202 are respectively and fixedly connected to the supporting platform 101; the two reverse screw rods 202 are both provided with reverse threads; the forging support block 203 is connected to the two reverse screw rods 202 in a threaded manner; the turning part 2 further includes: the heating platform 204 is in threaded rotary connection with the two reverse screw rods 202; a circle of heating pipe 205 is arranged on the heating pipe 205, and the circle of heating pipe 205 is embedded in the overturning support table 201; the drive section 3 includes: a driving threaded rod 301, wherein the driving threaded rod 301 is rotatably connected to the supporting platform 101; a transmission gear 302 meshed with the driving threaded rod 301, the transmission gear 302 is fixedly connected to the side shaft end of the turnover supporting platform 201, a supporting device 1 is arranged, a quenching groove 102 is arranged on the supporting device 1, the integral seamless arrangement mode is more stable, more heat-resistant and longer in service life, meanwhile, a turnover part 2 of a rotary shaft joint on the supporting platform 101 is supported by the turnover supporting platform 201, rotation is realized, forging is more flexible, a driving part 3 is arranged in a matched mode, the transmission gear 302 is driven to rotate under the rotary driving of the driving threaded rod 301, the turnover supporting platform 201 is driven to rotate, the driving threaded rod 301 is driven, the driving threaded rod 301 has a limiting effect, the turnover supporting platform 201 can rotate more stably, and the forging supporting block 203 and the heating platform 204 are independently installed, can make heating platform 204 have certain cool time, avoid heating platform 204 to receive forging hammering after the heating, influence life, set up independent heating platform 204 better protection heating pipe 205 that does simultaneously, can realize driving simultaneously and forge supporting shoe 203 and the operation of heating platform 204 through setting up reverse lead screw 202, it is more convenient to operate, the realization that the upset portion 2 that sets up simultaneously can be faster forges the titanium alloy piece after the thermal treatment, improve and forge the effect, production efficiency accelerates simultaneously.

As shown in fig. 10 to 12, the charging section 4 includes: the feeding support 401 is connected to the supporting platform 101 in a sliding mode through a sliding block; and racks are arranged on two sides of the feeding support 401; the dragging bracket 402 is connected to the supporting platform 101 in a sliding manner through a sliding block; and racks are arranged on two sides of the dragging bracket 402; material loading portion 4 still includes: two reverse gears 403 are provided, and each reverse gear 403 is provided; the two reverse gears 403 are both rotatably connected to the supporting platform 101; the two reverse gears 403 are meshed and connected between the dragging bracket 402 and the feeding bracket 401; two correction plates 404 are arranged, and the two correction plates 404 are respectively and fixedly connected to the dragging support 402 and the feeding support 401; the quenching apparatus 5 includes: the quenching bracket 501, the quenching bracket 501 is fixedly connected to the dragging bracket 402; an alloy taking rod 502, wherein the alloy taking rod 502 is rotatably connected to the quenching bracket 501; a material taking hook is arranged on the front side of the alloy material taking rod 502; two reset shafts 503 are arranged, and the two reset shafts 503 are respectively and fixedly connected to the quenching bracket 501; two reset shafts 503 are respectively sleeved on two sides of a quenching bracket 501, springs are sleeved on the two reset shafts 503, a feeding part 4 is arranged, the feeding part 4 adopts a feeding bracket 401 to realize the pushing movement of the titanium alloy block, the titanium alloy block can be prevented from shifting through a set correction plate 404 in the moving process, the dragging bracket 402 is matched, in the forward pushing process of the feeding bracket 401, under the meshing transmission of two reverse gears 403, the dragging bracket 402 is driven to simultaneously move in opposite directions, the titanium alloy block can be ensured to enter the turnover part 2 without centering, through the arrangement of the feeding part 4, the quenching device 5 can be matched to be more convenient for workers to feed, simultaneously, the scalding caused by the overhigh temperature of the turnover part in the feeding process is prevented, meanwhile, the quenching device 5 is adopted, the mode of driving the titanium alloy block to move through the extrusion driving by the alloy taking rod 502 is realized, and the quenching efficiency can be greatly improved, the rapid quenching is beneficial to austenitizing the interior of the strip alloy and improving the metal performance.

As shown in fig. 13 and 14, the lifting device 6 includes: the lifting support 601 is fixedly connected to the supporting platform 101; the hydraulic cylinder 602 is fixedly connected to the supporting platform 101; the lifting block 603 is connected to the lifting support 601 in a sliding mode, and the bottom of the lifting block 603 is fixedly connected to the hydraulic cylinder 602; the forging apparatus 7 includes: the forging power hammer 701 is fixedly connected to the two lifting blocks 603 through a support; flange tup 702, flange tup 702 passes through flange fixed connection and forges power hammer 701 bottom, elevating gear 6 has been set up, adopt pneumatic cylinder 602 driven elevator block 603 can be convenient for quick adjustment forging device 7 height more, in order to obtain more nimble forging height, it can realize avoiding influencing upset portion 2 and carrying out the upset operation to set up elevating gear 6 that can height-adjusting simultaneously, it can effectively enlarge the holistic forging scope of equipment to set up elevating gear 6, the forging device 7 that sets up simultaneously adopts flange joint's flange tup 702 to be convenient for more change, and is more practical.

In another embodiment, other structures are unchanged, the driving threaded rod 301 can be replaced by an electric threaded rod, so that the labor of a bar can be effectively saved, and meanwhile, the adjustment is more intelligent and accurate.

When in use: firstly, four installation feet 8 on the equipment are installed on the ground, the installation of the equipment can be completed, firstly, the heat treatment work on the titanium alloy block is needed, in the process, the height of a forging power hammer 701 is adjusted through a hydraulic cylinder 602 to avoid obstructing a turnover part 2, the titanium alloy block is placed on a supporting platform 101 at one side of a feeding support 401, then, an alloy material taking rod 502 arranged on a quenching device 5 is pushed, a reverse gear 403 arranged in the process is meshed to drive the feeding support 401 and a dragging support 402 to move oppositely, in the process, the titanium alloy block is driven to move, a correcting plate 404 can prevent the titanium alloy block from moving, the feeding support 401 and the dragging support 402 simultaneously move oppositely, the titanium alloy block can enter the turnover part 2 in a centering way, before, a transmission gear 302 is driven to rotate through a rotary driving threaded rod 301, further, the turnover support 201 is driven to rotate, and the heating platform 204 is rotated to the top, manually stirring the titanium alloy blocks to one side of the feeding bracket 401, then carrying out heat treatment on the titanium alloy blocks, and after the heat treatment is finished, the titanium alloy block is driven to be ejected by the driving threaded rod 301, at the moment, the driving drives the rotating threaded rod 301 to drive the overturning support table 201 to overturn, then the titanium alloy block can be pushed into the forging support block 203 through the feeding support 401 again, at the moment, the height of the forging power hammer 701 is controlled by the hydraulic cylinder 602, then controlling a forging power hammer 701 to forge the titanium alloy block through a flange hammer head 702, and finally after the forging is finished, namely, the titanium alloy block can be ejected by driving the threaded rod 301 again, the alloy material taking rod 502 is pressed downwards, then the alloy material taking rod 502 clamps the titanium alloy block by the material taking hook arranged on the front side of the alloy material taking rod 502 under the action of the extrusion force of the spring on the reset shaft 503, then the titanium alloy is dragged into a quenching tank 102 for quenching, and finally the hot forging rapid production process of the titanium alloy is completed.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (10)

1. A titanium alloy hot forging rapid production equipment is characterized in that: comprising a support device (1);

the supporting device (1) is characterized in that the supporting device (1) is fixedly connected to four mounting feet (8); the support device (1) is rotationally connected with a turnover part (2); the supporting device (1) is rotationally connected with a driving part (3); the top of the supporting device (1) is connected with a feeding part (4) in a sliding way, and the feeding part (4) is fixedly connected with a quenching device (5);

two lifting devices (6) are arranged, and the two lifting devices (6) are respectively and fixedly connected to the top of the supporting device (1); a forging device (7) is fixedly connected between the two lifting devices (6).

2. The titanium alloy hot forging rapid production apparatus as claimed in claim 1, wherein: the support device (1) comprises:

the supporting platform (101), the supporting platform (101) is fixedly connected to the four mounting feet (8);

the quenching tank (102), the quenching tank (102) is set on the supporting platform (101).

3. The titanium alloy hot forging rapid production apparatus as claimed in claim 1, wherein: the turning part (2) comprises:

the overturning supporting platform (201), and the rotating shaft of the overturning supporting platform (201) is connected to the supporting platform (101); two sides of the overturning support platform (201) are of arc structures, and two sides of the overturning support platform (201) are attached to the support platform (101);

two reverse screw rods (202), wherein the two reverse screw rods (202) are arranged, and the two reverse screw rods (202) are respectively and fixedly connected to the supporting platform (101); the two reverse screw rods (202) are respectively provided with a reverse thread;

and the forging support block (203), and the forging support block (203) is in threaded rotary connection with the two reverse screw rods (202).

4. The titanium alloy hot forging rapid production apparatus as claimed in claim 3, wherein: the turning part (2) further comprises:

the heating platform (204), the heating platform (204) is connected on the two reverse screw rods (202) in a threaded rotation manner;

the heating pipe (205), heating pipe (205) are equipped with the circle, and a circle heating pipe (205) inlays the dress and is being connected in upset supporting bench (201).

5. The titanium alloy hot forging rapid production apparatus as claimed in claim 1, wherein: the drive unit (3) includes:

the driving threaded rod (301), the driving threaded rod (301) is connected to the supporting platform (101) in a rotating mode;

the transmission gear (302) is meshed with the driving threaded rod (301), and the transmission gear (302) is fixedly connected to the side shaft end of the overturning support platform (201).

6. The titanium alloy hot forging rapid production apparatus as claimed in claim 1, wherein: the feeding section (4) includes:

the feeding support (401) is connected to the supporting platform (101) in a sliding mode through a sliding block; racks are arranged on two sides of the feeding support (401);

the dragging bracket (402), the dragging bracket (402) is connected to the supporting platform (101) in a sliding manner through a sliding block; and racks are arranged on two sides of the dragging bracket (402).

7. The titanium alloy hot forging rapid production apparatus as claimed in claim 6, wherein: the feeding part (4) further comprises:

two reverse gears (403) are provided, and the reverse gears (403) are provided; the two reverse gears (403) are both rotatably connected to the supporting platform (101); the two reverse gears (403) are meshed and connected between the dragging support (402) and the feeding support (401);

the two correction plates (404) are arranged, and the two correction plates (404) are respectively and fixedly connected to the dragging support (402) and the feeding support (401).

8. The titanium alloy hot forging rapid production apparatus as claimed in claim 1, wherein: the quenching device (5) comprises:

the quenching bracket (501), the quenching bracket (501) is fixedly connected to the dragging bracket (402);

the alloy taking rod (502), the alloy taking rod (502) is rotatably connected to the quenching bracket (501); a material taking hook is arranged on the front side of the alloy material taking rod (502);

two reset shafts (503) are arranged, and the two reset shafts (503) are respectively and fixedly connected to the quenching bracket (501); two reset shafts (503) are respectively sleeved on two sides of the quenching bracket (501), and springs are sleeved on the two reset shafts (503).

9. The titanium alloy hot forging rapid production apparatus as claimed in claim 1, wherein: the lifting device (6) comprises:

the lifting support (601), the lifting support (601) is fixedly connected to the supporting platform (101);

the hydraulic cylinder (602), the hydraulic cylinder (602) is fixedly connected to the supporting platform (101);

the lifting block (603), the lifting block (603) is connected to the lifting support (601) in a sliding mode, and the bottom of the lifting block (603) is fixedly connected to the hydraulic cylinder (602).

10. The titanium alloy hot forging rapid production apparatus as claimed in claim 1, wherein: the forging device (7) includes:

the forging power hammer (701), the forging power hammer (701) is fixedly connected to the two lifting blocks (603) through a bracket;

the flange hammer head (702), the flange hammer head (702) is through flange fixed connection at forging power hammer (701) bottom.

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